Portable restroom

ABSTRACT

A portable restroom is provided. The portable restroom offers features providing users with temporary toilet functions in a physically and emotionally secure environment while offering the owner/operator a cost-effective means of providing service. The portable restroom accomplishing the foregoing objectives includes the features of: improved ventilation; devices for no-touch sanitary safety practice; devices which facilitate personal carry in objects; combination “hover” handle and no touch door latch; a toilet seat with improved durability; improved door hinge installation and performance; improved base fastener retention; an improved base; and high-lift bearing surface and relief.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application claims priority as a Divisional application ofU.S. patent application Ser. No. 15/294,593, filed Oct. 14, 2016,entitled “Portable Restroom Assembly with Hands-Free Door OpeningSystem,” which application claims priority to U.S. Provisional PatentApplication No. 62/242,036 filed Oct. 15, 2015, entitled “PortableRestroom” and to U.S. Provisional Patent Application No. 62/291,256filed Feb. 4, 2016, entitled “Portable Restroom” and to U.S. ProvisionalPatent Application No. 62/318,345 filed Apr. 5, 2016, entitled “PortableRestroom,” the contents of each of which is incorporated herein byreference in its entirety.

FIELD

The present inventions relate to the field of portable restrooms. Thepresent inventions more specifically relate to the field of improvedconstruction of such portable restrooms.

BACKGROUND

Portable restrooms are generally composed of a portable enclosurecontaining a chemical toilet, and are typically used as a temporarytoilet for construction sites, large gatherings, or as a cost-savingalternative to maintaining larger plumbing infrastructure, among othertemporary needs. They are generally durable, constructed out of alightweight molded plastic. Portable restrooms are typically largeenough for only a single occupant. Some include both a seated toilet andurinal. Most include lockable doors and a means to vent the holdingtank.

As indicated, portable restrooms are often designed for use by a singleoccupant. Moreover, portable restrooms offer limited interior space.Therefore, efforts are made in their design to optimize freedom ofmovement. Moreover, all the interior components must be cleaned andserviced regularly. Therefore, they must be easily accessible andcleanable. Items commonly found in portable restrooms are a shelf toplace personal items (such as cell phones, camera, beverage can, etc.),a toilet paper dispenser, and/or a hook to hang a purse or belt orjacket.

One of the problems with portable restrooms is the noxious odor thatexists due to waste which is kept in the restroom holding tank andchemicals used to break down the waste. Ventilation enhances usercomfort in portable restrooms by minimizing these noxious odors.Ventilation can also help to reduce excessive (and potentiallydangerous) heat resulting from solar gain. Current portable restroomsoften include screens to assist in ventilation. In the absence of aportable restroom industry standard, manufactures have attempted toprovide solutions which comply with screening perceptions associatedwith screened, well-fitting door and window openings found in modemhomes and permanent public outdoor toilets, but at the same timeresistant to damage and vandalism. Screen openings are typicallyproduced as a relatively heavy plastic piece in a wide variety ofgeometries and sizes, as well as by various production methods; both asa separate component and/or integral part of the wall panel of theportable restroom. Unfortunately, none of these methods produce a screenwith ventilation performance comparable to those commonly useddomestically to prevent the entry of small insects and airborne debris.Additionally these manufactured screens suggest ample airflow by theirmany openings and/or size of openings. However, manufactured openingsoften produce abrupt and/or ragged edges that cause turbulence: aninvisible restriction to optimum airflow. Furthermore, costly attemptsto produce ventilation screens ignore the fact that portable restroomdoors, due to the nature of their construction and placement of portablerestrooms on, often, uneven surfaces, are not intended to replicate thefit of a modern domestic screened door; even having intentional gapsprovided for drainage and/or airflow. Relative large openings to provideinterior drainage are also commonly found about the bottom of the wallsand tank. These relatively large openings associated with poorly fittingdoors and drainage openings of a portable restroom negate the functionof a screen intended to prevent the entrance of small insects andairborne debris. Ventilation in portable restrooms is further hamperedwith the often necessary practice of placing multiple units,side-by-side and/or back-to-back as large banks or a sitting of portablerestrooms; with only the door fronts (which are typically unventilated)exposed to natural air movement. Accordingly, a need exists for improvedventilation of and improved airflow in a portable restroom.

Privacy in a portable restroom is typically provided by self-closingdoors held shut by a closure device consisting of a spring and a polymercoated wire rope, serving as a lanyard with a loop on the jamb end. Oneend of the closure is attached to the door and the other end is attachedto the hinge side door jam. As the door is opened the wire rope windsaround component geometries which are typically weak and often abrupt,while at the same time tugs at the anchoring fastener in the jamb.

To afford users privacy, portable restrooms also use devices including amechanism to lock or latch the door. Some of these systems are prone tobreakage. Others use rotating devices which often mar the interior doorsurface. Some portable restrooms also use what is referred to as a“hover handle”, which is a handle mounted to the interior panel of thedoor for the purpose of allowing the user to hold themselves over thetank opening while preventing contact with the toilet seat. Anotherproblem with existing portable restrooms is they continue to require theuser to touch various surfaces, such as the door handle or a portion ofthe door with their hand to enter or exit the portable restroom. “Notouch” sanitary practices are becoming more commonplace. No touchnormally refers to practices that avoid physical contact with ortouching of potentially contaminated surfaces. Unfortunately, thesepractices have not been currently employed in portable restrooms. A needexists to integrate these devices to maximize space, reduce damage tothe restroom, and to employ no touch sanitary practices.

A need also exists for improved hands-free door opening mechanisms inportable restrooms. Current portable restrooms offer foot operated doorpulls which are integral shapes molded into the door and/or adjacentcomponents at the time of manufacture. However, these systems operatepoorly in the typical harsh outdoor and physical environment in whichportable restrooms are used.

Another problem with portable restrooms is toilet seat breakage. Theportable sanitation industry is aggravated by the high rate of toiletseat breakage. This breakage is attributed to the movement of a personpositioned on the seat, causing rotational forces leading to the failureof the seat hinge components. Accordingly, an improved toilet seat for aportable restroom is needed.

As the term “portable restroom” implies, the portable restroom must bemovable or transportable. However, the greatest stress on a portablerestroom hinge joint fastener is when a unit is dropped on one of itsfront corners (typically when dropped from a transport vehicle) and whenit is subjected to the stresses of a ratchet belt (during transport). Ineach case, the commonly used rivet and hinge leaf in a portable restroomdoor is subjected to significant stress and easily breaks. Likewise,fasteners that attach portable restroom sidewall components to the baseoften employ mechanical anchors, molded in plastic bosses or usethreaded fasteners with no provision at all to enhance engagement. Themechanical anchors tend to be expensive and often rust over time. Themolded-in bosses are relatively small in size and fasteners often missthem during installation, rendering them useless. Both the mechanicalanchors and the molded-in bosses add significant cost the portablerestroom base and provide questionable performance. Moreover, portablerestrooms are often lifted by cranes to work areas not accessible to theusual servicing equipment. Lifting hardware used often includes cablesor metal bars that engage the bottom of the portable restroom base bymeans of holes drilled through the vertical plastic walls of the base.The additional weight of the restroom holding tank fluids and handlingstresses often cause the lift hardware to cut into the vertical wall ofthe base, weakening the base, and causing unsafe conditions. Anadditional safety concern is present when the lifting hardware used tocradle the portable restroom is allowed to hang in the area dedicated toground handling equipment thus causing damage and safety concerns in anarea difficult to observe.

In addition to the foregoing, portable toilets traditionally were formedhaving a support surface which spanned a hole in the ground. The toiletwas then slid to a new location when the hole was filled. A subsequentiteration of a portable toilet included the addition of a tank, alongwith wooden runners for portability using lift trucks. This portabletoilet continued to use a wooden support surface and wooden ribs tosupport the weight of the tank and occupant. The wooden support surface,wooden ribs, and runners were eventually replaced with plastic. Thisplastic part became a single molded plastic part or base, manufacturedby a variety of processes from thermoforming to roto-molding, or blowmolding, or injection molding, or compression molding. The base alsobecame a reservoir used for flushing systems. However, to date, the ribstructure on the base has not been adequate to effectively support theload of the portable toilet, the tank, and the occupant.

Accordingly, a need exists in the art for an improved portable restroomwhich provides solutions to the above-described drawbacks.

SUMMARY

Accordingly, an improved portable restroom is provided. The portablerestroom offers features providing users with temporary toilet functionsin a physically and emotionally secure environment while offering theowner/operator a cost-effective means of providing service. The portablerestroom accomplishing the foregoing objectives includes the featuresof: improved ventilation; devices for no-touch sanitary safety practice;devices which facilitate personal carry in objects; combination “hover”handle and no touch door latch; a toilet seat with improved durability;improved door hinge installation and performance; improved base fastenerretention; an improved base; and high-lift bearing surface and relief.

These and other features and advantages of devices, systems, and methodsaccording to this invention are described in, or are apparent from, thefollowing detailed descriptions of various examples of embodiments.

BRIEF DESCRIPTION OF DRAWINGS

Various examples of embodiments of the systems, devices, and methodsaccording to this invention will be described in detail, with referenceto the following figures, wherein:

FIG. 1 illustrates a portable restroom according to one or moreexemplary embodiments herein.

FIG. 2 illustrates a top interior floor plan view of the portablerestroom of FIG. 1 with roof removed, according to one or more exemplaryembodiments.

FIG. 3 illustrates a an elevation view of the inside surface of theattached door of a portable restroom as shown in FIG. 1 illustratingstructure and attachments to the door according to one or more exemplaryembodiments.

FIG. 4 illustrates a front elevation view of the portable restroom ofFIG. 1 according to one or more exemplary embodiments.

FIG. 5 illustrates a side elevation view of the portable restroom ofFIG. 1 according to one or more exemplary embodiments.

FIG. 6 illustrates an elevation view of a rear wall for use with theportable restroom of FIG. 1 according to one or more exemplaryembodiments.

FIG. 7 illustrates a perspective view of the wall shown in FIG. 6according to one or more exemplary embodiments.

FIG. 8 illustrates a perspective view of the underside of a roof for usewith the portable restroom of FIG. 1 according to one or more exemplaryembodiments.

FIG. 9 illustrates cut away views of the roof and wall, showing an airshaft ventilation system for use with the portable restroom of FIG. 1according to one or more examples of embodiments.

FIG. 10 illustrates a “no touch” door entry system for use with theportable restroom of FIGS. 1, 3 and 4, according to one or moreexemplary embodiments.

FIG. 11 illustrates a rear perspective view of a door for use with theportable restroom of FIG. 1 and having a recessed segment to facilitatethe no touch door entry system of FIG. 10 according to one or moreexemplary embodiments.

FIG. 12 illustrates a perspective view of a half of a door jamb for usewith the portable restroom of FIG. 1 according to one or more exemplaryembodiments.

FIG. 13 illustrates a perspective view of an alternate half of a doorjamb for use with the portable restroom of FIG. 1 according to one ormore exemplary embodiments.

FIG. 14 illustrates a front elevation view of a “no touch” hover handledoor latch for use with the portable restroom of FIG. 1 according to oneor more exemplary embodiments.

FIG. 15 illustrates a partial cross-sectional view of a “no touch” hoverhandle door latch according to one or more exemplary embodiments.

FIG. 16 is a partial cross sectional view which illustrates an exampleof a prior art method of joining a hinge to a door and a wall of aportable restroom.

FIG. 17 illustrates one or more examples of a hinge pocket with bossesfor use with the portable restroom of FIG. 1 according to one or moreexemplary embodiments.

FIG. 18 is a partial cross-sectional view which illustrates aninstallation of a poly boss hinge with rolled rivets for joining a doorand a wall for use with the portable restroom of FIG. 1 according to oneor more exemplary embodiments.

FIG. 19 is a partial cross-sectional view which illustrates one or morealternative examples of embodiments of an installation of a poly bosshinge with sonic welding for use with the portable restroom of FIG. 1.

FIG. 20 illustrates a perspective view of a base for use with theportable restroom of FIG. 1 according to one or more exemplaryembodiments.

FIG. 21 illustrates a cut away cross-sectional view of a high-liftbearing for use with the portable restroom of FIG. 1 and base of FIG. 24according to one or more exemplary embodiments.

FIG. 22 illustrates a triple-wall pocket fastening system for use withthe base of FIG. 24 and portable restroom of FIG. 1 according to one ormore exemplary embodiments.

FIG. 23 illustrates an alternative cross-section view taken alongSection Line B-B of FIG. 1, and along Section Line B-B of the side viewof FIG. 23, showing both of the alternate triple-wall pocket fasteningsystem and fastener therein of FIGS. 1 and 22 for use with the portablerestroom assembly according to one or more exemplary embodiments.

FIG. 24 is a perspective view of the bottom of a base for use with theportable restroom of FIG. 1 and base of FIG. 20 illustrating theundersides of two sets of two aligned high-lift bearings, as furthershown in FIG. 21, for accommodating a pair of flexible cables orbrackets (not shown) each extending beneath and within aligned bearingsfor the purpose of lifting the portable restroom for transport betweenstorage and elevated locations.

FIG. 25 illustrates a perspective view of the toilet seat and tank unitillustrated in FIG. 2, without the toilet seat lid, according to one ormore exemplary embodiments.

FIG. 26 illustrates a top plan view of a toilet seat and seat restraintor stops for use with the portable restroom of FIG. 1 according to oneor more exemplary embodiments.

FIG. 27 illustrates a partial cross section, side elevation view of thetoilet seat of FIG. 26 and corresponding seat support surface of theportable restroom tank of FIG. 1 according to one or more exemplaryembodiments.

FIG. 28 illustrates a top right perspective view of a paper holder shelfwith integrated nook for use with the portable restroom of FIG. 1according to one or more exemplary embodiments.

FIG. 29 illustrates a side elevation view of the paper holder shelfshown in FIG. 28 according to one or more exemplary embodiments.

FIG. 30 illustrates a rear elevation view of the paper holder shelfshown in FIGS. 28-29 according to one or more exemplary embodiments.

FIG. 31 illustrates a perspective view of a strain relief device for usewith the portable restroom as shown in FIG. 3 according to one or moreexemplary embodiments.

FIG. 32 illustrates an alternative perspective view of the strain reliefdevice of FIG. 31 for use with the portable restroom according to one ormore exemplary embodiments.

FIG. 33 illustrates a cut away cross-sectional view of the strain reliefanchor of FIGS. 31-32 in use with wire rope lanyard and door accordingto one or more ‘exemplary embodiments.

FIG. 34 illustrates a perspective view of a vent pipe for use with theportable restroom according to one or more exemplary embodiments.

FIG. 35 illustrates a perspective view of a unitary urinal for use withthe portable restroom according to one or more exemplary embodiments.

FIG. 36 is a top perspective view of a base for use with a portablerestroom according to one or more exemplary embodiments.

FIG. 37 is a top plan view of the base shown in FIG. 36.

FIG. 38 is a side elevation view of the base shown in FIG. 36.

FIG. 39 is a bottom plan view of the base shown in FIG. 36.

FIG. 40 is an enlarged partial view of the bottom view shown in FIG. 39.

FIG. 41 is a front elevation view of the base shown in FIG. 36.

FIG. 42 is a rear elevation view of the base shown in FIG. 36.

FIG. 43 is a bottom perspective view of the base shown in FIG. 36.

FIG. 44 is an enlarged partial view of the bottom view shown in FIG. 43.

FIG. 45 is an enlarged partial view of the bottom view shown in FIG. 43.

FIG. 46 is an additional partial enlarged cross-sectional view of thebottom view shown in FIG. 43.

FIG. 47 is a partial cross-sectional illustration of the base shown inFIG. 36.

FIG. 48a illustrates a top elevation view of one or more examples of ahandle-style foot and elbow portable restroom door opener mounted on adoor.

FIG. 48b illustrates a side elevation view of one or more examples of ahandle-style foot and elbow portable restroom door opener.

FIG. 48b ¹ illustrates a cross-sectional view of the handle-style footand elbow portable restroom door opener shown in FIG. 48b , taken fromline A-A of FIG. 48 b.

FIG. 48c is a top elevation view of one or more examples of embodimentsof a handle-style foot and elbow portable restroom door opener, showingclearance for a foot or elbow.

FIG. 48d is a top elevation view of one or more examples of embodimentsof a handle-style foot and elbow portable restroom door opener, showingan open end embodiment.

FIG. 48e is a side elevation view of one or more examples of embodimentsof a handle-style foot and elbow portable restroom door opener, showinga sole engagement and toe engagement area.

FIG. 48f is an image of a handle-style door pull, showing the door pullin use, engaged by a foot.

FIG. 49a is a side elevation view of one or more examples of embodimentsof a cup-style foot and elbow portable restroom door opener.

FIG. 49a ¹ is a cross-sectional view of the cup-style foot and elbowportable restroom door opener shown in FIG. 49a , taken from line A-A ofFIG. 49 a.

FIG. 49b is a side elevation view of one or more examples of embodimentsof a cup-style foot and elbow portable restroom door opener, showing anopen end embodiment.

FIG. 49c is an image of a cup-style door pull, showing the door pull inuse, engaged by a foot.

FIG. 49d is an image of an elbow or knee operated, cup style add-on doorpull according to one or more examples of embodiments.

FIG. 50 is a front elevation view of a portable restroom having one ormore examples of embodiments of hands-free door openers.

FIG. 51 is cut-away a side elevation view of a portable restroom havingone or more examples of a hands-free door opener, showing an example ofa pedal and lever door opener.

FIG. 52 is a cut-away partial top plan view of a portable restroom anddoor, having one or more examples of a hands-free door opener, showingan actuator assembly.

It should be understood that the drawings are not necessarily to scale.In certain instances, details that are not necessary to theunderstanding of the invention or render other details difficult toperceive may have been omitted. It should be understood, of course, thatthe invention is not necessarily limited to the particular embodimentsillustrated herein.

DETAILED DESCRIPTION

Referring to the Figures, an improved portable restroom is provided. Theportable restroom, as shown in FIGS. 1-2, has one or more advantageousfeatures which provide, for example, improved user experience andcomfort as well as improved construction and durability. The portablerestroom assembly 110 generally includes a base 120 having a floorportion 122, a rear wall 130, a left side wall 140 and a right side wall150 which may be identical, a door jamb having a hinge side 160 and alatch side 170, a door 200, a vented roof 210, a toilet module 220 witha holding tank 130. The portable restroom assembly 110 may also includeindicia on the door of the restroom or another surface of the restroomto inform and encourage users to open the door by inserting the toe oftheir shoes into the toe cavity behind the door portion with indicia topull the door open from outside the portable restroom in a “no handtouch” manner. The portable restroom assembly 110 is generallyconstructed of polyethylene or other durable plastic. Advantageously, norivets or fasteners are required to assemble the door sides or walls.The portable restroom assembly 110 offers features providing users withtemporary toilet functions in a physically and emotionally secureenvironment while offering the owner/operator a cost-effective means ofproviding service. Referring to FIGS. 1 and 2, The portable restroomaccomplishing the foregoing objectives includes the features of: (a)improved ventilation system; (b) devices for no-touch sanitary safetypractice, such as a foot-pull; (c) devices which facilitate personalcarry in objects, such as the improved shelf with integrated cup holderand strap retention nook; (d) combination hover handle door latch; (e)improved door hinge: (f) improved portability, installation andperformance; (g) improved base fastener retention; (h) an improved base;and (i) improved high-lift bearing surface and relief; among additionalfeatures and devices described herein.

Referring to FIGS. 1-9, an improved ventilation system is provided. Theimproved ventilation system is facilitated by the roof/wall interface.In particular, optimum ventilation is achieved with the use of anunobstructed air shaft configured to resist the entrance of rain andconfigured to provide user privacy. The air shaft is also of maximumsize afforded by the cross-section of the wall and/or roof components.The air shaft is optimally formed at the interface of the roof 210 andside walls 140 and 150 by opening specific sections of at least twowalls, thereby forming one or more chamber(s) between the roof andwalls. In other words, specific clearances or vent chambers 214 aredefined between adjacent sections of the wall panels and roof byproviding outwardly angled roof overhang portions 212 and inwardlyangled side wall vent portions 142. The chamber(s) 214 are optimallyformed by twin sheet thermoforming of the roof panel 210, and blowmolding of the wall panels 142, although either molding method can beadapted to formation of either the roof or side walls. The interiorsurfaces, including walls, sides, and inside of the door may be smoothareas which permit easy cleaning. As a result of this improvedventilation system, the need for screens is reduced or eliminated.Moreover, the improved ventilation system permits the back-to-back orside-to-side alignment of multiple portable restrooms withoutsacrificing ventilation. Additionally, the blow molding or twin sheetthermoforming of wall panels provides increased durability.

In addition to ventilation, the portable restroom described herein alsoprovides structural improvements which improve sanitary practices anduser experience. FIGS. 1 & 10-12 illustrate exemplary embodiments ofelements of a “no touch” door entry system. Unlike traditional interiordoors, as found in a home or commercial buildings, portable restroomdoors, and in particular the base of the door, are often raised from thefloor/ground surface (see FIGS. 1 and 3). Accordingly, the no touch doorentry system is provided to take advantage of this area of clearance.More specifically, the no touch feature is provided as a segment ofclearance in the base and/or door. Referring to FIG. 3, the inside baseof the door 200 may be optionally provided with generally recessedsegment 202 on the interior bottom surface of the door forming a doorrelief or foot engagement section that extends from the base of thedoor. The base of the door, and/or at least a portion of the door reliefsegment, overlaps a portion of the portable restroom base. The portablerestroom base may also be optionally provided with a base relief segment124 aligned with the door relief segment 202. The base relief segment124 is generally a recessed area on the base 120 providing clearance fora portion of a user's foot to toe. As a result of the opposed reliefsegments, clearance is available to engage the interior side of the doorwith the user's shoe toe to pull the door open and enter the portablerestroom. The area of clearance or relief segment is provided eitherlocally at the lower corner of the door opposite the hinge side and/orgenerally across the entire bottom of the door. Clearance may beprovided either in the door or the base or both. As a result of the notouch door entry system, a sanitary environment is maintained andenhanced during entry into the portable restroom assembly 110.

An improved handle is provided on the door of the portable restroom onthe interior surface. Like the no touch door entry system, the improvedhandle facilitates a no touch door exit. More specifically, FIGS. 1,13-14 illustrate a no touch hover handle door latch 204. In particular,the handle may be operated by means other than the user's hands.However, the door handle also includes a hover handle hold which is anoutwardly curved handle bar 205 that is attached on both ends to ahandle base. A user may grip and support oneself above and in spacedrelation to the toilet seat using the handle bar 205 in the mannerdescribed herein. The contours of the handle bar 205 can be seen in FIG.14. Alternatively, the handle bar 205 can be formed with an I-beam typeconfiguration for improved strength as shown in cross-section “AA” ofFIG. 15. The handle base, at its distal end, is ramped to engage theinside surface of a door jamb and secure the door in closed position.This is shown in the embodiment of FIG. 15. The handle base may also beupwardly curved at its distal end to engage the elbow or forearm of auser. As a result, a user may operate the handle without the use of hisor her hands. The handle base is joined to a stem 206 with locator notchwhich extends through the door 200. A conventional occupancy indicator(not shown) may be provided on the stem and facing the exterior. Arotation stop 207 and door resistance may also be provided to control orrestrict movement of the handle. The handle 204 is constructed of adurable, strong, rigid material, such as a durable plastic or polymer.The handle combines the function of a “hover handle” and the reliabilityof a rotating type door latch with an ergonomic shape operable with theforearm or elbow. In addition the handle provides a minimum resistanceto rotation and a locked position occurs in an area that prevents anyvisible marring or disfiguration to the door.

The door of the portable restroom is subject to heavy use, constantlyopening and closing, and as a result is subject to break over time.Accordingly, in addition to a durable handle as described above, durablehinges are necessary to prolong the life of the portable restroom. Asshown in FIGS. 1, 16-18, four high density polyethylene hinges 208 areprovided. This high density polyethylene hinges are durable in use withthe portable restroom. Each hinge has a plurality of leafs. The hingeleafs alternatively join the hinge to the door 200 and to the hinge sidedoor jamb 160. Traditionally, hinge leafs are clamped in a pocket formedbetween the flat inner and outer sheets of the door and jamb withconventional pop rivets and a backup washer (see FIG. 16). This is adependable but antiquated and labor intensive process. For example, poprivet installation requires the use of predrilled holes and requiresthat the hinge axis be carefully aligned. This assembly is typicallyaccomplished with an elaborate drill fixture incorporating multipleheaded drills (one for each hinge leaf) and is used for both the doorand the jamb. As a result, the cost of the drill fixture and labor isalso quite high. As alluded to above, the normal use of the door placesa shear load on the plastic. This load is proportional to the diameterof the rivet. Accordingly, as shown in FIGS. 17-19, bosses are added tothe door and jamb, forming a poly-boss hinge assembly. A boss isgenerally a knob, stud, or other circular rounded protuberance or anarea of increased thickness, usually cylindrical, that strengthensaround a hole. Adding bosses to the door and jamb sheets that engage thehinge leaf reduces the required clamping force by shifting stresses fromthe fastener (e.g., rivet) to the more ductile plastic boss. In one ormore examples of embodiments, the hinge leaves snap into place over thebosses and are thereby self-aligning. The poly-boss hinge assemblyallows the use of traditional pop rivets, but the requirements for thefastener joint are reduced and thereby less labor intensive and moretechnology intensive. In one or more alterative embodiments, instead ofpop rivets, self-piercing rolled rivets or sonic welding may be used(see FIGS. 17-18). In addition to the advantages set forth above, thepoly-boss hinge assembly eliminates the need to drill 24 holes and thelabor of handling a 24 pop rivets, a rivet gun and blind positioning ofa washer.

In addition to the door, the base 120 of the portable restroom assembly110 is designed to withstand the movement of the restroom and itsplacement on high rise construction locations. In this regard, the base120 of the restroom has an improved construction designed to improvedurability during transport and use site installation. FIGS. 21 and 24illustrate high-lift bearings according to one or more examples ofembodiments. High-lift bearings, or horizontal bearing areas 121, asshown, are areas molded in the portable restroom base of FIG. 24 thatprovide additional support proximate to the base vertical wall duringlifting. The horizontal bearing area 121 is provided in an area thatreduces the stress on the vertical sidewall(s) 121A, thus preventingdamage that destabilizes the unit when lifted with a crane. As can beseen lifting hardware such as cable 250 or steel bars (not shown)engages a horizontal bearing area 121 provided in the base. Referring toFIG. 21, this horizontal bearing area engages the lifting hardware orcable 250 rather than the relatively narrow thickness of the restroombase vertical wall. Protective grooves 121B are also provided in thebase. The protective grooves 121B eliminate the problem of lift hardware250 coming into contact with ground handling equipment. Referring toFIG. 24, which is a perspective view of the side and bottom of the base120 and sidewall 150 attached thereto, when the base is adapted forcrane lifting utilizing known sling systems, holes 120B are drilled invertical walls of the runners 120A which extend along each of the lowersides of the base 120. The upper circumferences of the holes are alignedwith or slightly above the bearing surface of the horizontal bearingarea 121 to insure that the particular lifting hardware which is to beutilized will be lifting primarily against the horizontal bearing area121, with minimal pressure on the upper circumferences of the holes 120Bwhich function primarily to position the cables 250 or other liftinghardware within the base at a level above the lower surfaces of the baseextending between the runners 120A which are primarily accessed byforklift equipment for land transport and truck loading. In addition,holes 120C are located in vertical walls of the base between the runners120A, as shown in FIG. 24, which are aligned with the runner holes 120Bto maintain the lifting cables 250 or other hardware in alignment acrossthe full width of the base 120. As shown, the exterior vertical walls ofthe runners 120A are indented by the length of the horizontal bearingareas 121, which indention 120D extends to the conventional axle bearingsurfaces 126 for wheel and axle assemblies (not shown) commonly used tomove and position portable restrooms around building job sites.

The base 120 of the portable restroom is formed and separately assembledto the walls of the restroom 110. In this regard, a durable and strongattachment is often desired, particularly because the portable restroomis intended to be moved. Referring to FIG. 1 and FIGS. 22-23, atriple-wall pocket fastening system is used to assemble the base to thewalls in the portable restroom described herein. FIGS. 22-23 illustratethe triple-wall pocket fastening system of the base 120. As shown in theFigures, the base triple wall 123 is formed having at least two folds soas to overlap and form three approximately parallel walls. The triplewall 123 may extend along the horizontal length of the base 120 or maybe provided in specific pocket locations. As illustrated, the adjacentwall portions of the triple wall 123 are also spaced apart. Between atleast one pair of adjacent walls of the triple wall is a pocket 123Aformed by the spaced apart walls (See FIGS. 21-22). An insert 123B maybe positioned within the pocket. The insert 123B may be an additionalplastic or metal piece formed to fit within the pocket. Alternativematerials may also be acceptable. A fastener 142 may be inserted throughthe three walls and insert. Advantageously, the triple-wall 123 pocketsystem presents three wall thickness of material as well as anadditional plastic or metal insert over a relatively large area(compared to other fastening methods) so as to optimize the fastener'sclamping and retention forces with significantly lower costs.

Another area at risk of damage in a portable restroom is the toilet seat221 of the toilet module 220. In order to improve durability of thetoilet seat, the portable restroom disclosed herein provides a toiletseat restraint. FIGS. 25-27 illustrate a toilet seat restraint. As shownin these Figures, the toilet seat includes a hinge end 222 with one ormore conventional hinge(s) which are used to attach the seat base to thetoilet structure with fasteners. Seat supports are also provided on theunderside of the toilet seat. In addition to the foregoing, one or moreseat restraints or stops 223 are provided on one or more sides of thetoilet seat. The stops are protrusions which extend upward from thetoilet structure adjacent the edge(s) of the toilet seat. One or morerecesses 226 may also be provided in the seat support surface 225 of thetoilet structure. The recesses 226 may be arranged and formed to receivethe seat supports 224 on the underside of the toilet seat. As a resultof the engagement of the recesses and seat supports, and use of stops,rotational movement of the toilet seat is restrained. In other words,rotational movement of the toilet seat is restrained by engaging theseat about its perimeter with stops 223 projecting upward from the seatsupport surface or engaging seat geometries that project downward fromthe underside of the seat. As a result, breakage due to rotationalstress on the hinge is eliminated or reduced.

As has been described herein, limited space exists in the interior of aportable restroom. The portable restroom described herein thereforeprovides a unique combined functional accessory which maximizes usablespace and improves user comfort. Referring to FIGS. 28-30, a paperholder shelf 260 with integrated nook 261 is shown. The paper holdershelf with integrated nook may be attached to the wall using one or morefastening points and fasteners, or may be integrally molded with a wall(or possibly the door) of the portable restroom. The paper holder shelfwith integrated hook comprises three components in one, namely, a paperdispenser or roll holder 262, a top shelf surface 263 for holdingadditional paper or other user items such as a phone, book, etc., and anintegrated nook 261 which will retain a belt or handbag strap to keepsuch personal items off the floor of the portable restroom 110. In theillustrated embodiment, the paper is secured and dispensed from below bythe dispenser or roll supports 262 extending horizontally within thebody of the shelf unit 260. The roll supports may be secured orunsecured paper roll supports. In other words, the paper holder shelfwith integrated nook offers geometries that accommodate both a securedand unsecured (e.g., snap in place) paper roll support 262. The topshelf surface 263 has a relatively flat or relatively horizontal surfacefor holding items placed thereon. The housing that includes the shelfsurface and integrated hook at least partially surrounds or covers thepaper held by the dispenser or roll supports. In the illustratedembodiment, an integrated nook 261 is formed as an upward extending lipor protrusion on the outer edge (opposite the wall attachment) of thepaper holder shelf; although, alternative, specially formed hooks andthe like may also be used with the present device. A fastening plate 265on or within the back wall of the shelf unit 260 may be employed tofasten the shelf unit 260 to the sidewall 140 or 150. The shelf surfacemay also include one or more drains, including a slightly sloped butrelatively horizontal top surface for causing liquid to drain off eitherside edge. In addition, the top shelf surface may include a cup-holderindent 264, as shown in FIG. 28, without adversely affecting the almosthorizontal but slightly sloped and drainable character of the topsurface. The paper holder shelf 260 with integrated nook 261 optimizesthe usable space within the portable restroom interior and reduces thenumber of components and surface area requiring maintenance. As a resultof the foregoing, user experience is enhanced without sacrificingvaluable space within the portable restroom.

As indicated herein, portable restroom privacy is often provided byself-closing doors held shut by a closure device consisting of a springand a polymer coated wire rope serving as a lanyard with a loop on thejamb end. In the improved portable restroom 110 of the invention asshown generally in FIG. 3, one end of the closure device 270 is attachedto the door 200 and the other attached to the hinge side door jamb 160,as shown. Two such closure devices 270 are shown, one spaced from thetop of the door and the other spaced from the bottom of the door. Toprevent the wire rope portion 272 from locally deforming the componentgeometries it contacts as the door is opened, and the wire rope itselffrom being damaged by repeated sharp bending over the edge of the doorjamb 160, a strain relief anchor sheave 273 is provided (see FIGS.31-33). The strain relief anchor sheave 273 may be formed of a morerigid material than the portable restroom composition, and is inserted,generally, between the wire rope 272 and the restroom componentgeometries, namely between the inside surface and corner of jamb 160 andthe wire rope 272 (see FIG. 33). The strain relief anchor sheave 273 isattached to the jamb 160. As a result, associated forces between thewire rope 272 and the jamb 169 are spread over a greater area, namelythe convex sheave channel 274 through which the wire rope 272 isconstrained and supported, thereby reducing or eliminating localdeformation. The surfaces used which come into contact with the wirerope in traditional portable restrooms are often flat or abrupt. Both ofthese conditions put undue stress on the polymer coating of the wirerope, causing it to fail and producing high stress on the wire ropestrands—often inducing a progressive failure of individual strands untiltotal failure. The strain relief sheave reduces stress which leads tofailure by providing cradled side support(s) forming a channel 274therebetween, within which the wire rope 272 may be positioned and move.Additionally, stresses in or on the traditional anchoring fastener oftencause the connection to fail, typically pulling out from the plasticwall of the jamb to which it is attached. The strain relief anchorsheave 273 incorporates a projection 275 that engages a matchingdepression 162 in the jamb which transfers some of the forces that causethe joint fastener failure to the surface of the jamb, thussignificantly reducing the probably of joint failure.

Additional devices for use with the portable restroom are showngenerally in FIGS. 34-35. FIG. 34 shows a conventional vent pipe 280which is connected within the portable restroom at a rear cornerthereof, as shown in FIG. 2. The vent pipe 280 extends from the interiorportion of the holding tank 230, which is defined by the body of thetoilet module 220 generally below the toilet seat 221, through the uppersurface of the toilet module 220 and through the roof 210 of theportable toilet 110 to provide an elevated vent for the holding tank.Advantageously, the vent may be a molded in corner vent stack whichprevents debris from collecting behind the stack. FIG. 35 shows aunitary urinal 290, the bowl of which is attached to the interior sidesof the right side wall 150 and hinge side door jamb 160 in the frontcorner of the portable restroom, with a drain pipe 292 which extendsfrom the urinal 290 into the holding tank 230. In one or more examplesof embodiments, the urinal is a one piece corner urinal having clogresistant piping with a wider opening. A mounting platform for ahand-sanitizer (not shown) may be mounted above the urinal forpreventing drips on the floor.

As shown in FIGS. 36-47, an improved base 300 for a portable restroom isfurther provided. The improved base 300 includes a unique rib designarranged to securely and stably support an occupant of the portablerestroom. To this end, the base 300 generally comprises a deck or decktop 302, a support structure 310 below the deck top and a plurality(e.g., two or more) ground supports or runners 340. The deck top mayinclude a non-skid, no-slip tread floor surface. The support structurehas a plurality of vertical walls 350 and near vertical ribs 360. Asseen in FIG. 38, high lift bearings 321 may be utilized in the runners340. As seen in FIGS. 39, 40 and 43-47, the vertical walls 350 spanbetween the plurality of runners 340. A plurality of ribs 360 is alsoprovided. The ribs 360 in the illustrated embodiment have a generally“flowerpot” type shape with a plurality of lobes. The ribs 360 areprovided in an alternating pattern between adjacent vertical walls 350and extend vertically from a recessed surface 380 toward the deck top302 and may be in contact with the lower surface of the deck top 302 soas provide additional support thereto. Multiple rows of alternating rib360 patterns are provided. These rib 360 patterns may be providedbetween vertical walls 350. Adjacent vertical walls 350 may further bejoined by a horizontal surface 370 as shown in the Figures. According toone or more examples of embodiments, the base is formed of a plasticmaterial and may be molded by a variety of means to form the shape setforth herein. The support structure (e.g., ribs and vertical walls) mayfurther be surrounded by additional base structure to form the entiretyof the base and to conceal any vacant space within the molded structure(see e.g., FIGS. 36, 38, 41-43).

As shown in FIG. 47, a “tube” 380 is formed by three sides of the ribstructure and the deck top 302. This tube extends between and issupported by the base's two runners 340 (e.g., ground supportingstructure). The near vertical walls of the tube 380 are interrupted toform a system of supports. The vertical walls 350 of the system ofsupports may be further stiffened by a single vertical rib 360 on eachside.

As shown in FIGS. 48-52, one or more examples of embodiments ofhands-free door opening systems are disclosed which may be used withportable restrooms. These hands-free door opener systems may be retrofitto portable restrooms, or may be integrated into (e.g., molded orassembled into) one or more new designs that partially or completelyopen the door. Generally, a door mounted direct acting device (orplurality of such devices) which engage the foot, knee or elbow is (are)disclosed. One or more operator mechanisms, such as a pedal, a lever, aslide, or a similar device(s) may be mounted on or adjacent to the door,but which act directly upon the door, or remotely through cables orother flexible means of force transition in proportion to operatormovement. One or more examples of manually operated mechanisms whichactivate spring-loaded or electric devices that open the door are alsoprovided. While the systems described herein are discussed, designed,and intended to be used without hands, one of skill in the art wouldunderstand that a user may elect not to take advantage of the device'shands-free capability and instead use a hand to grasp or activate thedescribed opener without departing from the overall scope of the presentinvention. The hands-free openers described herein may be formed of anysuitable durable material, including for example, metal or plastic, bysuitable means, and may be formed integrally with one or more componentsof the portable restroom or may be formed separately and secured to theportable restroom by a suitable mechanism.

More specifically, referring to FIGS. 48a-f , a handle-style hands-freedoor opener is disclosed. The handle may be engaged by the foot orelbow. As can be seen in FIG. 48a , the handle 400 has two surfaceengaging areas 402, 404 which engage a corresponding surface 406, suchas a door. The handle 400 may be mounted on either a flat mountingsurface of the portable restroom (and in particular the door) or amounting surface formed with a recess 407 or area of clearance (such asmay provide clearance for engagement by a user's elbow or foot).Accordingly, the handle 400 may also have a foot or elbow engaging area408. Alternatively, the handle 400 may be formed with sufficientclearance 409 for the foot or elbow (see, e.g., FIG. 48c ).

The handle 400 may be provided with various surfaces for engagement withthe user's foot. For example, referring to FIGS. 48a, 48b and 48b ¹ thehandle 400 may have a roughened and/or sloped surface 410 or 412 toengage the user's foot, or sole of the foot or footwear. Alternatively,or additionally, the handle 400 may have a rounded surface to engage thetoe of the foot or footwear. As shown in FIG. 48b ¹, the top of thehandle 400 has a roughened and/or sloped surface 412, while the bottomof the handle has a rounded surface 414, such that a user may electeither option for hands-free operation.

In one or more alternative examples of embodiments (shown in FIG. 48d ),a handle 416 may be provided which is secured to the surface or door ononly one end, or has one surface engaging area, forming an open end onthe side opposing the engaging area. The open end version of the handle416 accommodates side, bottom and top engagement by the user for openingthe door. An example of use of the open end handle 416 is shown in FIG.48f , in which a user's toe 418 is engaged with the handle 416.

In one or more further alternative embodiments, an example of which isshown in FIG. 48e , the handle 420 may have a central engagement section422 which is secured to the surface or door, and two extensions 424, 426therefrom, such as but not limited to curved sections, extending awayfrom the surface or door, one of which may be a sole engaging section426, the other of which may be a toe engaging section 424.

Referring to FIGS. 49a-49d , one or more examples of a cup-style foot orelbow engaging door opener for a portable restroom are provided. Thecup-style hands-free door opener 428, 430 has a surface engaging area432 for securing the opener to the surface, such as a door, and a footor elbow engaging area 434 extending therefrom. As can be seen in FIGS.49a & 49 a ¹ the cup-style hands-free door opener 428, 430 has a crownedand/or sloped and roughened top surface 436 to engage the bottom of thefoot or footwear. The cup-style hands-free opener 428, 430 also has adownwardly facing opening or recess 438 and a rounded or smoothed bottomedge 440, designed to form a “cup” which engages the toe of the foot orfootwear, but may also be used to engage a knee or elbow. In theembodiment shown in FIG. 49a , the cup-style hands-free opener 428 issecured to another surface, such as a door, by two surface engagingareas 432. In an alternative embodiment, such as shown in FIG. 49b , thecup-style door opener 430 has only one surface engaging area 432,forming an open end which permits top, bottom and side engagement.Additional surface engaging areas may also be provided. FIG. 49cillustrates a cup-style hands-free door opener 428 in use. In FIG. 49c ,a user's foot 418, and specifically, the user's toe or footwear isengaged with the downward facing opening or recess 438 of the cup. FIG.49d illustrates an alternative example of an elbow or knee operatedcup-style door opener 442. In the illustrated embodiment, the openrecess or end is horizontally oriented for engagement with the relevantuser body part.

As can be seen in FIG. 50, a portable restroom may be provided with oneor more hands-free door opener systems. In the example shown in FIG. 50,one or more pedals and/or buttons are strategically placed, whichdevices operate levers or cams that open the portable restroom doorsufficiently to engage an elbow or shoulder with the door (e.g., via agap created between the door and the door frame). For example, a dooropening button or pedal 444, 446, 448 located along the door edge 450and/or bottom 452 may be provided. Additionally, or alternatively, anelbow operated door opening cup-style 428 (or 430 or 442) orhandle-style 400 (or 416 or 420) hands-free door opener may be providedon the door near the door edge in a location typical for current doorhandles. A knee engageable door pull 454 may be provided at a locationbelow the elbow operated door pull, but above the bottom of the doorsuch as shown in FIG. 50. Likewise, a foot operated door opener 456 mayalso be provided at the base of the door such as is shown in FIG. 50.The knee engageable door pull 454 and foot operated door opener 456 maybe substantially the same as the cup-style or handle-style door opener,or may be different and arranged to accommodate a user's insertion of aknee and movement of the door therewith. A pedal or button 448 may alsobe provided on the base of the portable restroom as indicated.

A pedal lever may also be used for hands-free operation. FIG. 51illustrates an example of operation of a pedal lever 458. As can beseen, the pedal 460 operates a lever 462 which acts directly on the door464, or indirectly through a linkage (e.g., cables, chains, etc.). Thepedal 460 extends at an angle less than 180 degrees from the lever 462in FIG. 51, and causes the lever 462 to pivot about a central pivotpoint 466 formed by the apex of the angle connecting the two components.Door movement may then be proportional to depression of the pedal by theuser. As a result, the pedal permits the user to open the portablerestroom door with a foot, or if positioned higher the elbow.

FIG. 52 illustrates an alternative example of embodiments of ahands-free door opener, showing use of an actuator. In particular, FIG.52 shows an example of indirect operation through a linkage. A button468 on the restroom sidewall or door frame 470 is linked to the opener472, e.g., an actuator, by a cable, linkage or wire 474. The depressionof the button 468 may cause an engaged pawl 476, which has retained atensioned actuator 478 (e.g., tensioned by a spring), to release,thereby pushing the door 480 open. The actuator 478 may be a springloaded piston or like device, or alternatively may be an electricallyoperated mechanism. Door movement may also be proportional to actuatormovement.

As indicated, in one or more examples of embodiments, the door openerdevices may be “add-on” components (e.g. retrofit). In these systems, aswell as in newly formed portable restrooms, the hands-free door openermay be provided on or mounted to a sub plate 482 (see FIG. 50) forincreased durability or other purposes, either permanently or withtemporary fastener systems for easy removal and installation. Thehands-free devices described herein may also be directly mounted to theportable restroom, either permanently or with temporary fastenersystems. To this end, the hands-free devices may be provided with one ormore apertures for insertion of a fastener. While specific examples areprovided herein, various alternatives and modifications may be madeconsistent with the purposes provided.

As utilized herein, the terms “approximately,” “about,” “substantially”,and similar terms are intended to have a broad meaning in harmony withthe common and accepted usage by those of ordinary skill in the art towhich the subject matter of this disclosure pertains. It should beunderstood by those of skill in the art who review this disclosure thatthese terms are intended to allow a description of certain featuresdescribed and claimed without restricting the scope of these features tothe precise numerical ranges provided. Accordingly, these terms shouldbe interpreted as indicating that insubstantial or inconsequentialmodifications or alterations of the subject matter described and claimedare considered to be within the scope of the invention as recited in theappended claims.

It should be noted that references to relative positions (e.g., “top”and “bottom”) in this description are merely used to identify variouselements as are oriented in the Figures. It should be recognized thatthe orientation of particular components may vary greatly depending onthe application in which they are used.

For the purpose of this disclosure, the term “coupled” means the joiningof two members directly or indirectly to one another. Such joining maybe stationary in nature or moveable in nature. Such joining may beachieved with the two members or the two members and any additionalintermediate members being integrally formed as a single unitary bodywith one another or with the two members or the two members and anyadditional intermediate members being attached to one another. Suchjoining may be permanent in nature or may be removable or releasable innature.

It is also important to note that the construction and arrangement ofthe system, methods, and devices as shown in the various examples ofembodiments is illustrative only. Although only a few embodiments havebeen described in detail in this disclosure, those skilled in the artwho review this disclosure will readily appreciate that manymodifications are possible (e.g., variations in sizes, dimensions,structures, shapes and proportions of the various elements, values ofparameters, mounting arrangements, use of materials, colors,orientations, etc.) without materially departing from the novelteachings and advantages of the subject matter recited. For example,elements shown as integrally formed may be constructed of multiple partsor elements show as multiple parts may be integrally formed, theoperation .of the interfaces may be reversed or otherwise varied, thelength or width of the structures and/or members or connector or otherelements of the system may be varied, the nature or number of adjustmentpositions provided between the elements may be varied (e.g. byvariations in the number of engagement slots or size of the engagementslots or type of engagement). The order or sequence of any process ormethod steps may be varied or re-sequenced according to alternativeembodiments. Other substitutions, modifications, changes and omissionsmay be made in the design, operating conditions and arrangement of thevarious examples of embodiments without departing from the spirit orscope of the present inventions.

While this invention has been described in conjunction with the examplesof embodiments outlined above, various alternatives, modifications,variations, improvements and/or substantial equivalents, whether knownor that are or may be presently foreseen, may become apparent to thosehaving at least ordinary skill in the art. Accordingly, the examples ofembodiments of the invention, as set forth above, are intended to beillustrative, not limiting.

Various changes may be made without departing from the spirit or scopeof the invention. Therefore, the invention is intended to embrace allknown or earlier developed alternatives, modifications, variations,improvements and/or substantial equivalents.

The technical effects and technical problems in the specification areexemplary and are not limiting. It should be noted that the embodimentsdescribed in the specification may have other technical effects and cansolve other technical problems.

What is claimed is:
 1. A portable restroom assembly comprising: a base,at least three walls, a door, a door jamb, and a roof forming anenclosure containing a toilet module with a holding tank; and aventilation system formed by an interface between the roof and a wallfrom the at least three walls formed to provide an unobstructed airshaft formed by one or more chambers between the roof and wallconfigured to resist the entrance of rain and configured to provide userprivacy.
 2. The portable restroom assembly of claim 1, wherein the doorhas a handle comprising an outwardly curved handle bar attached on bothsides to a handle base, the handle base comprising a ramp to engage thedoor jamb and secure the door; and wherein the handle further comprisesan upward curve at an end thereof arranged to engage an elbow or forearmof a user and permit rotation of the handle by the user's elbow orforearm.
 3. The portable restroom assembly of claim 1, wherein the doorfurther comprises a poly-boss hinge assembly including a durable hingehaving a plurality of leaves which join the door to the door jamb, andwherein one or more bosses are provided in the door and the door jamband the plurality of leaves snap into place over the bosses and arethereby self-aligning; and further comprising a fastener in the one ormore bosses and plurality of leaves to secure the hinge, the fastenerselected from the group consisting of pop rivets, rolled rivets andsonic weld.
 4. The portable restroom assembly of claim 1, whereinfurther comprising a toilet seat mounted to the toilet module on theholding tank and a toilet seat restraint, wherein the toilet seatrestraint comprises one or more stops provided on one or more sides ofthe toilet seat.
 5. The portable restroom assembly of claim 1, whereinthe enclosure further includes a paper holder shelf with integrated hookpositioned on a wall of the at least three walls.
 6. The portablerestroom assembly of claim 1, further comprising a closure device forclosing the door, the closure device comprising a spring and a lanyard,wherein a first end of the closure device is attached to the door and asecond end of the closure device is attached to a hinge side door jamb,and wherein a strain relief anchor sheave is attached to the jamb andprovided between the lanyard and the jamb.
 7. A portable restroomassembly comprising: a base, at least three walls, a door, a door jamb,and a roof forming an enclosure containing a toilet module with aholding tank; and wherein a wall from the at least three walls isassembled to the base with a triple-wall fastening system comprising atleast two folds in either the wall or a raised wall of the base, whichat least two folds overlap and form three spaced apart approximatelyparallel walls.
 8. The portable restroom assembly of claim 7, whereinthe triple-wall fastening system extends along the horizontal length ofthe wall.
 9. The portable restroom assembly of claim 7, wherein thetriple-wall fastening system is provided in selected locations about theportable restroom assembly.
 10. The portable restroom assembly of claim7, further comprising an insert positioned in a pocket formed by thespaced apart approximately parallel walls.
 11. The portable restroomassembly of claim 7, further comprising a fastener inserted into andthrough the triple-wall fastening system and base.
 12. A portablerestroom assembly comprising: at least three walls, a door, a door jamb,and a roof forming an enclosure containing a toilet module with aholding tank; and a base coupled to the enclosure and comprising a deck,a support structure below the deck and a plurality of ground supports,the support structure having a plurality of vertical walls which spanbetween the ground supports and a plurality of ribs provided in analternating pattern between adjacent vertical walls and extendingvertically from a recessed surface toward the deck.
 13. The portablerestroom assembly of claim 12, wherein the support structure furthercomprises multiple rows of alternating rib patterns provided between theplurality of vertical walls.
 14. The portable restroom assembly of claim12, wherein the base comprises high-lift bearing surfaces.
 15. Theportable restroom assembly of claim 12, wherein the base comprisesprotective grooves.